Abstract
We consider the problem of Pareto-optimal route planning in public-transit networks of a whole country, a whole continent, or even the whole world. On such large networks, existing approaches suffer from either a very large space consumption, a very long preprocessing time or slow query processing. Transfer Patterns, a state-of-the-art technique for route planning in transit networks, achieves excellent query times, but the space consumption is large and the preprocessing time is huge. In this paper, we introduce a new scheme for the Transfer Pattern precomputation and query graph construction that reduces both the necessary preprocessing time and space consumption by an order of magnitude and more. Average query times are below 1 ms for local queries, independent of the size of the network, around 30 ms for non-local queries on the complete transit network of Germany, and an estimated 200 ms for a fictitious transit network covering the currently available data of the whole world.
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CITATION STYLE
Bast, H., Hertel, M., & Storandt, S. (2016). Scalable transfer patterns. In Proceedings of the Workshop on Algorithm Engineering and Experiments (Vol. 2016-January, pp. 15–29). Society for Industrial and Applied Mathematics Publications. https://doi.org/10.1137/1.9781611974317.2
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